Parkinson Disease Clinical Trial
Official title:
Select Stim: Selective Stimulation of the Subthalamic Nucleus in Parkinson's Disease. "A Feasibility Study"
In the advanced stages of Parkinson Disease deep brain stimulation of the subthalamic
nucleus (STN DBS) is the next therapeutic option. Despite the beneficial motor effects there
are important negative side-effects of STN DBS. Our hypothesis is that changes in cognition
and behavior during STN DBS are related to stimulation of the non-motor parts of the STN.
The primary objective is to avoid cognitive and affective side effects by selective
stimulation of the STN motor part.
The main objective of this feasibility study is to measure the patients burden and to test
the technical feasibility.
Intervention:
The intervention is an expansion of the classical STN DBS procedure. The targeting using the
multichannel registration system by stimulation of the motor cortex and registration of the
subthalamic nucleus will be added to the procedure. For this procedure, it is necessary to
place a subdural strip under the skull.
Parkinson disease (PD) is a common neurodegenerative disorder, characterized by motor
symptoms. Patients are initially treated successfully with drugs (e.g. levodopa),
unfortunately use is limited due to severe side effects. In the advanced stages of PD
neurosurgical treatment is the next therapeutic option.
As a result of dopamine depletion in PD the subthalamic nucleus (STN) displays a
characteristic burst activity. This burst activity results in dysregulation of the
electrical activity of the cortico-basal ganglia-thalamo-cortical circuitry and is expressed
by Parkinsonian symptoms. That is why the STN is a main target for deep brain stimulation
(DBS) in PD. Long-term follow-up (since 1993) shows long lasting beneficial effects on the
motor function of PD patients.
Despite the beneficial motor effects there are important negative side-effects of STN DBS.
These include both cognitive and affective changes during stimulation, 40% has one of these
side effects. 10% experience difficulties during their daily functioning due to altered
cognition or personality changes. Presently, the underlying mechanism of these stimulation
induced behavioral changes is not fully understood and therefore adequate treatment is
lacking.
The STN can be divided in three functionally and anatomically segregated parts: a motor
part, a cognitive part and a limbic part. Our hypothesis is that changes in cognition and
behavior during STN DBS are related to stimulation of the non-motor parts of the STN.
Currently, good candidates are excluded from STN DBS because of the high risk of behavioral
disorders.
Objective of the study:
The primary objective is to avoid cognitive and affective side effects and maintain the
beneficial motor effects by selective stimulation of the STN motor part. With the Select
Stim project we want to improve the classical operation procedure, in such way that the
behavioral side effects will be less present and the motor symptoms of the disease will be
treated. In a later stage, we want to compare the classical treatment in comparison to this
new method. The outcome we are interested in are the Parkinson symptoms, but also the side
effects of the stimulation on cognitive functioning, mood and behavior. The main objective
of this feasibility study is to measure the patients burden and to test the technical
feasibility.
The feasibility study will answer the following: is targeting of the subthalamic nucleus,
using stimulation of the motor cortex and registration in the subthalcami nucleus
technically achievable? The primary goal is to determine the technical feasibility and the
patient tolerance. If the method is technical achievable and well tolerated by the patients,
we want to give answer to the main question with a randomized trial.
Study design:
The first stage consists of a feasibility study. Five patients will be enrolled and
evaluated. Blinding and randomization is not necessary. Depending on the results of this
minor feasibility study, we will proceed with the second stage, which is the randomized
controlled trial.
Study population:
For this study the population consists of PD patients who are candidates for STN DBS:
clinical findings consistent with idiopathic PD and suffering from severe response
fluctuations and/or dyskinesia, despite optimal drug treatment. Further, there are no
restrictions in terms of gender or ethnicity. Age limits are 40 and 75 years.Those PD
patients suffering from severe psychiatric co-morbidities and cognitive decline are
excluded. Other exclusion criteria are the same as for the classical STN DBS operation. For
the feasibility study three patients will be enrolled.
Intervention (if applicable):
The intervention is an expansion of the classical STN DBS procedure. The targeting using the
multichannel registration system by stimulation of the motor cortex and registration of the
subthalamic nucleus will be added to the procedure. For this procedure, it is necessary to
place a subdural strip under the skull.
Primary study parameters/outcome of the study:
There are two main endpoints to measure the feasibility. First, the patients burden and
outcome. We will interview the patient and ask him to fill in a standardized questionnaire.
Only if the burden is acceptable, we will start with the main study (average marks for each
testing must be above 5 to continue with a RCT). Thereby the motor symptoms must be
significantly less pronounced with stimulation than pre-operatively.
Secondly, the technical feasibility depends on the possibility to register the potentials,
evoked by motor cortex stimulation in the STN (so-called evoked potentials). These
potentials have to be clearly identifiable in order to recognize the motor part of the STN.
This is necessary as in the final study we want to compare the results of selective
stimulation of the motor part of the STN with results of the classical procedure.
Secundary study parameters/outcome of the study (if applicable):
Cognition, and in particular impulsivity, and affect, will be assessed by neuropsychological
testing and a self-report questionnaire, the Positive and Negative Affect Scale (Watson et
al 1988). Neuropsychological testing covers the main cognitive domains but the study
parameters are related to the performance on tasks in the relevant domain of executive
functioning, including word fluency, the Stroop (Lezak, 2004), a finger precuing task (Adam
et al, 2002) and the Iowa Gambling Task (Bechera et al., 1994). (These are not endpoints of
the feasibility trial.)
Advantage of fMRI above TMS or double contrast MRI in the planning of the OR.
Nature and extent of the burden and risks associated with participation, benefit and group
relatedness (if applicable):
The burden for the patients rests within lengthened operation time and the pre-operative
preparation. The preparation for this study will contain a functional MRI. The patient needs
to lie in the scanner for a prolonged time (max. 30 min.). And an TMS will be performed to
localise the hand area on the motor cortex, which will take about 60 minutes. This test is
not painful. The operation will be lengthened with one hour per side.
Adverse events related to the implantation of the subdural strip electrodes for the motor
cortex stimulation are described in epilepsy research where these strips are also used. The
most important complications involve bleeding, infection, transient neurological deficit,
intracranial hypertension, seizures. A large retrospective study (185 patients with epilepsy
who had an implantation of a subdural strip) shows that strip electrode implantation is
rarely associated with complications, e.g. epidural hematoma 1.6%, subdural hematoma 1.1%,
brain edema 1.1%, postoperative infection 1.1%, transient aphasia 1.1%, occurrence of
non-habitual seizures 2.7%. Most of these published complications are in context of
prolonged (e.g. several days) monitoring in epilepsy treatment. We expect the risk of
seizures to be lower in Parkinson disease patients. Moreover, in this study the subdural
strips are only used for just an hour for recording and stimulation of the motor cortex. So,
the risk of the various complications mentioned above will probably be even lower.
The strips will be implanted through the same burr hole through which the five depth
electrodes are implanted like in the classical procedure. Only if this appears to be
impossible during the procedure, a second burr hole will be made. The risk of this (bleeding
and infection) is very low (less than 0.25%).
The risk of seizures is very small with the administration of diphantoin. The most important
side effects of diphantoin are nausea, vomiting, obstipation and anorexia, also dizziness
ataxia, nystagmus, speech disturbances, tremor, apathy, visual disturbances, nervosity,
hallucinations and neuropathy. The adverse effects are mainly reported after long term
treatment.
After intravenous administration hypotension can occur and cardiotoxic reactions, collaps
and/ or central depression; incidentally dyskinesias. The injection site can hurt, show
inflammation and necrosis of the skin. The diphantoin will be loaded in a safe time spam
(90min) through a safe intravenous line by the anesthetist in the srugery room.
;
Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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